October 24, 2011

Unraveling the mysteries of the natural killer within us

by Monash University

Scientists have discovered more about the intricacies of the immune system in a breakthrough that may help combat viral infections such as HIV.

Co-led by Professor Jamie Rossjohn of Monash University and Associate Professor Andrew Brooks from University of Melbourne, an international team of scientists have discovered more about the critical role Natural Killer cells play in the body's .

The findings were published today in Nature.

Natural Killer cells are a unique type of white blood cell important in early immune responses to tumours and viruses. Unlike most cells of the immune system that are activated by molecules found on the pathogen or tumour, Natural Killer cells are shut down by a group of proteins found on healthy cells.

These de-activating proteins, known as Human Leukocyte Antigens or HLA molecules are absent in many tumours and cells infected with viruses, leaving them open to attack by the Natural Killer cells.

Natural Killer cells recognise the HLA molecules using an inbuilt called "Killer cell immunoglobulin-like receptors" (KIR).

Using the Australian Synchrotron, the team determined the three dimensional shape of one of these key KIR proteins, termed KIR3DL1, which binds to a particular HLA molecule.

This pairing is known to play a role in limiting in people with HIV, slowing the progression of the disease to AIDS.

Professor Rossjohn said that better understanding the structure of KIR proteins may help to develop approaches to better utilise Natural to combat viral infection.

"It is only possible to detect proteins, such as KIRs, using extremely high-end equipment. The use of the platform technologies at Monash and the Australian Synchrotron was absolutely essential to this project's success," Professor Rossjohn said.

Professor Brooks said the researchers would use these findings to investigate other KIR molecules.

"Since KIR3DL1 is only a single member of a much larger family of receptors, the study provides key insight into how utilise other members of this important family of receptors to recognise virus-infected cells and tumours." Professor Brooks said.

Provided by Monash University
Citation: Unraveling the mysteries of the natural killer within us (2011, October 24) retrieved 14 May 2024 from https://medicalxpress.com/news/2011-10-unraveling-mysteries-natural-killer.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Explore further

Natural killer cells contribute to immune response against HIV
 shares

Feedback to editors
New research presents 'mini-brains' that could advance Alzheimer's treatment

18 minutes ago
Study shows virus that causes COVID-19 can penetrate blood-retinal-barrier and could damage vision

26 minutes ago
Stem cells provide new insight into genetic pathway of childhood cancer

1 hour ago
Researchers reveal how lipopolysaccharide binding protein resists hepatic oxidative stress

1 hour ago
Congenital anomalies found to be ten times more frequent in children with neurodevelopmental disorders

1 hour ago
New research identifies a larger pool of genes involved in age-related blood cell mutations than previously thought

1 hour ago
'MUSIC map' reveals some brain cells age faster and are more prevalent in Alzheimer's

1 hour ago
Study reveals mixed public opinion on polygenic embryo screening for IVF

1 hour ago
Analysis suggests people with more copies of ribosomal DNA have higher risks of developing disease

1 hour ago
Study identifies genetic link between inflammatory bowel disease and Parkinson's disease

2 hours ago
Load comments (0)